词条 | Chronostasis |
释义 |
A common occurrence of this illusion is known as the stopped-clock illusion, where the second hand of an analog clock appears to stay still for longer than normal when looking at it for the first time.[3][4][5][5] This illusion can also occur in the auditory and tactile domain. For instance, a study suggests that when someone listens to a ringing tone through a telephone, while repetitively switching the receiver from one ear to the other, it causes the caller to overestimate the temporal duration between rings.[1] Mechanism of actionOverall, chronostasis occurs as a result of a disconnection in the communication between visual sensation and perception. Sensation, information collected from our eyes, is usually directly interpreted to create our perception. This perception is the collection of information that we consciously interpret from visual information.[6] However, quick eye movements known as saccades disrupt this flow of information. Because research into the neurology associated with visual processing is ongoing, there is renewed debate regarding the exact timing of changes in perception that lead to chronostasis.[7] However, below is a description of the general series of events that lead to chronostasis, using the example of a student looking up from his desk toward a clock in the classroom.
In studying chronostasis and its underlying causes, there is potential bias in the experimental setting. In many experiments, participants are asked to perform some sort of task corresponding to sensory stimuli. This could cause the participants to anticipate stimuli, thus leading to bias. Also, many mechanisms involved in chronostasis are complex and difficult to measure. It is difficult for experimenters to observe the perceptive experiences of participants without "being inside their mind."[1] Furthermore, experimenters normally do not have access to the neural circuitry and neurotransmitters located inside the braincases of their subjects. Modulating factorsBecause of its complexity, there are various characteristics of stimuli and physiological actions that can alter the way one experiences chronostasis. Saccadic amplitudeThe greater the amplitude (or duration) of a saccade, the more severe the resulting overestimation. The further the student in the above example's eyes must travel in order to reach the clock, the more dramatic his perception of chronostasis.[13] This connection supports the assertion that overestimation occurs in order to fill in the length of time omitted by saccadic masking. This would mean that, if the saccade lasted for a longer period of time, there would be more time that needed to be filled in with overestimation.[15] Attention redirectionWhen shifting focus from one object to a second object, the saccadic movement of one's eyes is also accompanied by a conscious shift of attention. In the context of the stopped clock illusion, not only do your eyes move, but you also shift your attention to the clock. This led researchers to question whether the movement of the eyes or simply the shift of the observer's attention towards the second stimulus initiated saccadic masking. Experiments in which subjects diverted only their attention without moving their eyes revealed that the redirection of attention alone was not enough to initiate chronostasis.[13] This suggests that attention is not the time marker used when perception is filled back in. Rather, the physical movement of the eyes themselves serves as this critical marker. However, this relationship between attention and perception in the context of chronostasis is often difficult to measure and may be biased in a laboratory setting. Because subjects may be biased as they are instructed to perform actions or to redirect their attention, the concept of attention serving as a critical time marker for chronostasis may not be entirely dismissed.[15] Spatial continuityFollowing investigation, one may wonder if chronostasis still occurs if the saccadic target is moving. In other words, would you still experience chronostasis if the clock you looked at were moving? Through experimentation, researchers found that the occurrence of chronostasis in the presence of a moving stimulus was dependent on the awareness of the subject. If the subject were aware that the saccadic target was moving, they would not experience chronostasis. Conversely, if the subject were not aware of the saccadic target's movement, they did experience chronostasis. This is likely because antedating does not occur in the case of a consciously moving target. If, after the saccade, the eye correctly falls on the target, the brain assumes this target has been at this location throughout the saccade. If the target changes position during the saccade, the interruption of spatial continuity makes the target appear novel.[13] Stimulus propertiesProperties of stimuli themselves have shown to have significant effects on the occurrence of chronostasis. In particular, the frequency and pattern of stimuli affect the observer's perception of chronostasis. In regard to frequency, the occurrence of many, similar events can exaggerate duration overestimation and makes the effects of chronostasis more severe. In regard to repetition, repetitive stimuli appear to be of shorter subjective duration than novel stimuli.[14] This is due to neural suppression within the cortex. Investigation using various imaging techniques has shown that repetitive firing of the same cortical neurons cause them to be suppressed over time.[16] This occurs as a form of neural adaptation. Sensory domainThe occurrence of chronostasis extends beyond the visual domain into the auditory and tactile domains.[17] In the auditory domain, chronostasis and duration overestimation occur when observing auditory stimuli. One common example is a frequent occurrence when making telephone calls. If, while listening to the phone's dial tone, research subjects move the phone from one ear to the other, the length of time between rings appears longer.[1] In the tactile domain, chronostasis has persisted in research subjects as they reach for and grasp objects. After grasping a new object, subjects overestimate the time in which their hand has been in contact with this object.[4] In other experiments, subjects turning a light on with a button were conditioned to experience the light before the button press. This suggests that, much in the same way subjects overestimate the duration of the second hand as they watch it, they may also overestimate the duration of auditory and tactile stimuli. This has led researchers to investigate the possibility that a common timing mechanism or temporal duration scheme is used for temporal perception of stimuli across a variety of sensory domains.[14] See also
References1. ^1 2 3 {{cite journal|author1=Hodinott-Hill, Iona |author2=Thilo, Kai V. |author3=Cowey, Alan |author4=Walsh, Vincent | title = Auditory Chronostasis: Hanging on the Telephone| journal= Current Biology| date = 15 October 2002| pages = 1779–1781| volume = 12| issue = 20| pmid=12401174| doi = 10.1016/S0960-9822(02)01219-8}} 2. ^{{cite journal|last=Yarrow|first=Kielan|author2=Whiteley, Louise |author3=Rothwell, John C. |author4= Haggard, Patrick |title=Spatial consequences of bridging the saccadic gap|journal=Vision Research|date=February 2006|volume=46|issue=4|pages=545–555|doi=10.1016/j.visres.2005.04.019 |pmid=16005489 |pmc=1343538}} 3. ^{{cite journal|last=Knoll|first=Jonas|author2=Morrone, M. Concetta |author3=Bremmer, Frank |title=Spatio-temporal topography of saccadic overestimation of time|journal=Vision Research|date=28 February 2013|volume=83|pages=56–65|doi=10.1016/j.visres.2013.02.013|pmid=23458677}} 4. ^1 {{cite journal|last=Yarrow|first=Kielan|author2=Rothwell, John C|title=Manual Chronostasis: Tactile Perception Precedes Physical Contact|journal=Current Biology|date=July 2003|volume=13|issue=13|pages=1134–1139|doi=10.1016/S0960-9822(03)00413-5|pmid=12842013}} 5. ^{{cite news | url=http://www.bbc.com/future/story/20120827-how-to-make-time-stand-still | title=The mystery of the stopped clock illusion | work=BBC - Future - Health - | date=2012-08-27 | accessdate=2012-12-09 }} 6. ^{{cite book|last=Goldstein|first=E. Bruce|title=Sensation and perception|year=2010|publisher=Wadsworth, Cengage Learning|location=Belmont, CA|isbn=978-0495601494|edition=8th}} 7. ^1 {{cite web|last=Knoll|first=Jonas|title=Spatio-temporal representations during eye movements and their neuronal correlates|url=http://archiv.ub.uni-marburg.de/diss/z2012/0935|format=Dissertation|date=30 October 2012}} 8. ^{{cite book|last=Kolb|first=Bryan|title=Fundamentals of Human Neuropsychology|year=2008|publisher=Palgrave Macmillan|location=Basingstoke|isbn=0716795868|pages=350–375|edition=6th|author2=Whishaw, Ian Q.}} 9. ^{{cite journal|last=Ibbotson|first=M. R.|author2=Crowder, N. A. |author3=Cloherty, S. L. |author4=Price, N. S. C. |author5= Mustari, M. J. |title=Saccadic Modulation of Neural Responses: Possible Roles in Saccadic Suppression, Enhancement, and Time Compression|journal=Journal of Neuroscience|date=October 2008|volume=28|issue=43|pages=10952–10960|doi=10.1523/JNEUROSCI.3950-08.2008|pmid=18945903}} 10. ^{{cite book|last=Purves|first=Dale|title=Neuroscience|year=2012|publisher=Sinauer|location=Sunderland, Mass.|isbn=978-0-87893-695-3|edition=5.}} 11. ^1 2 {{cite journal|last=Yarrow|first=Kielan|author2=Johnson, Helen |author3=Haggard, Patrick |author4= Rothwell, John C. |title=Consistent Chronostasis Effects across Saccade Categories Imply a Subcortical Efferent Trigger|journal=Journal of Cognitive Neuroscience|date=June 2004|volume=16|issue=5|pages=839–847|doi=10.1162/089892904970780 |pmid=15200711 |pmc=1266050}} 12. ^{{cite journal|last=Bridgeman|first=Bruce|title=A review of the role of efference copy in sensory and oculomotor control systems|journal=Annals of Biomedical Engineering|year=1995|volume=23|issue=4|pages=409–422|doi=10.1007/BF02584441}} 13. ^1 2 3 4 {{cite journal|last=Thilo|first=Kai V.|author2=Walsh, Vincent|title=Vision: When The Clock Appears to Stop|journal=Current Biology|date=19 February 2002|volume=12|pages=R135-R137|doi=10.1016/S0960-9822(02)00707-8|issue=4}} 14. ^1 2 {{cite journal|last=Eagleman|first=David M|title=Human time perception and its illusions|journal=Current Opinion in Neurobiology|date=April 2008|volume=18|issue=2|pages=131–136|doi=10.1016/j.conb.2008.06.002|pmid=18639634|pmc=2866156}} 15. ^1 {{cite book|last=Nobre|first=Anna C.|title=Attention and time|year=2010|publisher=Oxford University Press|location=Oxford|isbn=978-0-19-956345-6|edition=1. publ.}} 16. ^{{cite journal|last=Verhoef|first=B.-E.|author2=Kayaert, G. |author3=Franko, E. |author4=Vangeneugden, J. |author5= Vogels, R. |title=Stimulus Similarity-Contingent Neural Adaptation Can Be Time and Cortical Area Dependent|journal=Journal of Neuroscience|date=15 October 2008|volume=28|issue=42|pages=10631–10640|doi=10.1523/JNEUROSCI.3333-08.2008 |pmid=18923039}} 17. ^{{cite book|last=Nijhawan|first=Romi|title=Space and Time in Perception and Action|year=2010|publisher=Cambridge University Press|location=Cambridge, UK|isbn=978-0-521-86318-6}} External links
5 : Illusions|Perception|Measurement|Vision|Greek words and phrases |
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